我国辣椒病毒病发生情况及发展趋势--基于2018年和2019年辣椒主产区的调查

为明确我国辣椒病毒病的种类和发展趋势,2018年和2019年在我国16个省(市、自治区)辣椒主产区采集具有病毒病疑似症状的样品105份,利用双抗体夹心酶联免疫吸附反应(DAS-ELISA)对12种辣椒主要病毒进行检测。结果表明,有70份样品为病毒病感染样品,病毒检出率为66.67%。检出病毒种类共10种,其中辣椒轻斑驳病毒(Pepper mild mottle virus,PMMoV)检出率最高,为24.76%,其次为黄瓜花叶病毒(Cucumber mosaic virus,CMV)、蚕豆萎蔫病毒(Broad bean wilt virus,BBWV)、烟草蚀纹病毒(Tobacco etch virus,TEV)和番茄斑萎病毒(Tomato spotted wilt virus,TSWV),检出率分别为19.05%、12.38%、12.38%和10.48%。我国辣椒主产区多种病毒复合侵染发生较为普遍,病毒复合侵染率为40%,其中以2种病毒复合侵染比例最高,为28.57%。通过对两年辣椒病毒病检测结果进行比较,12种病毒中有7种检出率有上升趋势。总体而言,PMMoV和CMV为近两年危害我国辣椒生产较为严重的病毒病;此外,PMMoV、BBWV-1,2、TEV、TSWV具有流行风险,需要严加防范。

我国辣椒核心种质资源园艺性状多样性的分析和评价

对331份我国辣椒核心种质资源的43个重要农艺性状的多样性进行了初步研究。结果表明,331份辣椒核心种质的性状表现的平均变异系数为41.4%;其中最长侧枝长度、果肉厚、单果质量等性状的变异系数超过了70%。Shannon信息指数范围为0.17~2.41,平均值为1.30,果形的Shannon信息指数最高,其性状表现也最丰富。植物学性状的聚类分析可以将331份辣椒种质材料区分为两大群体,群组之间表型差异明显。

辣椒炭疽病基因紧密连锁的KASPar标记的开发

【目的】研究辣椒炭疽病抗性基因的遗传规律。在5号连锁群中,定位辣椒炭疽病抗性主效基因AnRGO5,并开发分子标记。【方法】以高抗炭疽病品种PBC932(Capsicum chinense)为父本,以高感炭疽病的中早熟材料77013(Capsicum annuum)为母本杂交产生BC4S1、BC4S2群体,用于辣椒绿熟期抗炭疽病基因定位。选用尖孢炭疽菌为试验用菌,采用显微注射法对绿熟果接病,根据病斑直径进行表型分析。根据抗、感亲本重测序结果,开发与绿熟期抗炭疽病连锁的Kaspar标记。【结果】辣椒果实表面病斑直径呈连续分布,符合数量性状的遗传特点。通过连锁分析,将炭疽病抗性基因AnRGO5定位在5号连锁群的标记P5L-866与标记P5L-259之间,遗传距离2.9cM。开发的标记P5L-117与基因紧密连锁,标记准确率93.5%。【结论】在辣椒的BC3S1群体中,将果实绿熟期抗性基因定位于5号染色体的标记区间内。辣椒炭疽病抗性遗传为显性遗传,是由两对主效基因控制的。

辣椒抗番茄斑萎病毒病研究进展及展望

番茄斑萎病毒(Tomato spotted wilt virus,TSWV)自19世纪发现以来,在全世界各地蔓延,对多种作物造成重大经济损失。本文以辣椒为例,从TSWV的发生与分布、病害症状检测、传播方式、防治方法、抗TSWV育种及展望等6个方面对国内外辣椒TSWV的研究现状进行综述。

辣椒白粉病抗性QTL定位分析

以辣椒(Capsicum annuum)白粉病抗、感病亲本H3和83-60构建的包含142个重组自交系的RIL(H3×83-60)F8群体为试验材料,基于亲本重测序数据设计KASPar引物,构建了包含16个连锁群的辣椒遗传连锁图谱,总图距1 356.5cM,标记间平均图距为4.69 cM。基于2016年和2017年重组自交系群体白粉病发病表型数据,获得了PMR6.1、PMR9.1、PMR11.1、PMR11.2和PMR5.1等5个白粉病抗性QTL位点,其中PMR6.1、PMR9.1在两年中均被检测到,表型贡献率在10.8%~21.4%之间。通过辣椒白粉病抗性QTL定位,开发与白粉病抗性基因连锁的SNP分子标记,对于辣椒抗病辅助育种有重要参考价值。

基于全基因组SNP分析辣椒亲本间遗传距离与产量性状杂种优势的关系

为探索基于SNP标记的分子遗传距离预测辣椒产量杂种优势的可能,实现辣椒杂种优势早期预测并筛选强优势组合,以12份辣椒自交系为亲本,采用个别分析和分组分析两种方法,开展了全基因组SNP标记为基础的分子遗传距离与产量杂种优势关系的比较。在个别分析中,从12份自交系中随机选取8份自交系,发现遗传距离与产量杂种优势之间存在不规则变化,有62.5%符合遗传距离越远杂种优势越强的规律;在分组分析中,发现随着遗传距离增大,杂种优势值总体呈现上升趋势。说明辣椒亲本间遗传距离越大,获得高产强优势组合的可能性越大,基于SNP标记的遗传距离可用来预测其后代杂种优势。

单双子叶植物种子萌发和休眠的研究进展

种子萌发和休眠是两个复杂且紧密联系的生理过程,涉及一系列外界环境和内部因子的相互作用,对农业高产稳产和生态进化具有重要意义。其遗传变异是典型的受多位点控制的数量性状,受环境因素影响。近年来,针对影响种子萌发和休眠等各种因素,国内外学者发现了多个QTL位点,并对其机制进行了解析。本文综述了遗传调控和外界因子对种子萌发和休眠的影响,总结了目前研究存在的问题,并对未来发展方向进行了展望。

Genetic diversity and population structure analysis of Capsicum germplasm accessions

Genetic diversity plays an essential role in plant breeding and utilization.Pepper is an important vegetable and spice crop worldwide.The genetic diversity of 1 904 accessions of pepper conserved at the National Mid-term Genebank for Vegetables,Beijing,China was analyzed based on 29 simple sequence repeat(SSR)markers,which were evenly distributed over 12 pepper chromosomes.The pepper accessions were divided into two groups in a genetic structure analysis,and the two groups showed obvious differences in fruit type and geographical distribution.We finally selected 248 accessions capturing 75.6%of the SSR alleles as the core collection for further research.Insights into the genetic structure of pepper provide the basis for population-level gene mining and genetic improvement.

Cloning and characterization of CaGID1s and CaGAI in Capsicum annuum L.

Fruit set and development are affected by many phytohormones, including gibberellin. Little is known regarding molecular mechanism underlying gibberellin mediated fruit set and development especially in Capsicum. Three gibberellin recep- tors, CaGIDlb.1, CaGIDlb.2 and CaGIDlc, and a DELLA protein, CaGAI, have been identified in Capsicum annuum L. During the fruit development, the expression level of CaGIDlc was low, and the expression fold change is mild. However, CaGIDlb. 1 and CaGIDlb.2 were relatively higher and more acute, which indicates that CaGIDlb. 1 and CaGID1b.2 may play an important role in fruit pericarp, placenta and seed. Ectopic expressions of CaGIDlb. 1, CaGIDlb.2 and CaGIDlc in Arabidopsis double mutant gidla gidlc increased plant height, among which CaGIDlb.2 had the most significant effect; CaGAI reduced plant height in double mutant rga-24/gai-t6, having a similar function to AtGID1 and AtGAI in stem elon- gation. Yeast two-hybrid （Y2H） and bimolecular fluorescence complementation （BiFC） assays indicated that CaGIDlb.1 and CaGID1 b.2 interact with CaGAI in a GA-dependent manner, while CaGIDlc interacts with CaGAI in a GA-independent manner. Our study reveals the key elements during gibberellin signaling in Capsicum and supports the critical importance of gibberellin for Capsicum fruit set and development.